function fval = int_money(L, B, a_b, a_s, EPS_L_BOUND, EPS_H_BOUND, S_PARAM, M_PARAM, THETA, DELTA, CHI_q, CHI_PI, CHI_PI_k, tau_k)

sig = S_PARAM;
mu  = M_PARAM;
f   = @(x, a) 1 ./ (x * sig * sqrt(2 * 3.14159265359))...
    .* exp(- (log(x) - mu - a).^2 / 2 / sig^2)...
    .* (x >= EPS_L_BOUND) .* (x <= EPS_H_BOUND);
int_method = 'auto';
Rel_Tol    = 1e-5;
Abs_Tol    = 1e-6;


fun.l_bound      = @(a) EPS_L_BOUND; % lower bound
fun.h_bound      = @(a) EPS_H_BOUND; % upper bound
fun.Delta        = @(y, x, B, CHI_q, CHI_PI) (1 - tau_k) .* B .* ((1 - THETA - CHI_PI) .* x + THETA .* y) + (1 - DELTA) .* (1 - CHI_q);
fun.capital_gain = @(y, x, a_sell, a_buy) (x - y) .* f(x, a_buy) .* f(y, a_sell);
fun.money_gain   = @(y, x, a_sell, a_buy, B, CHI_q, CHI_PI) (x - y) ./ fun.Delta(y, x, B, CHI_q, CHI_PI) .* f(y, a_sell) .* f(x, a_buy);
fun.threshold    = @(x, L, CHI_PI, CHI_PI_k) L ./ (1 - THETA - CHI_PI - CHI_PI_k) - THETA ./ (1 - THETA - CHI_PI - CHI_PI_k) .* x; 



int_l = min(max(L / THETA - (1 - THETA - CHI_PI - CHI_PI_k) / THETA *  fun.h_bound(a_b), fun.l_bound(a_s)), fun.h_bound(a_s)); %need an explanation
int_h = min(max(L / (1 - CHI_PI - CHI_PI_k), fun.l_bound(a_s)), fun.h_bound(a_s)); %need an explanation

fval  = integral2(@(eps_t, eps) fun.money_gain(eps_t, eps, a_s, a_b, B, CHI_q, CHI_PI),...
                 int_l, int_h,...
                 @(eps_t)fun.threshold(eps_t, L, CHI_PI, CHI_PI_k), @(eps_t)eps_t - eps_t + fun.h_bound(a_b),...
                 'method', int_method, 'RelTol', Rel_Tol, 'AbsTol', Abs_Tol)...
      + integral2(@(eps_t, eps) fun.money_gain(eps_t, eps, a_s, a_b, B, CHI_q, CHI_PI),...
                 int_h, fun.h_bound(a_s),...
                 @(eps_t)eps_t, @(eps_t)eps_t - eps_t + fun.h_bound(a_b),...
                 'method', int_method, 'RelTol', Rel_Tol, 'AbsTol', Abs_Tol);  

end